Movable contact unit, manufacturing method of the same, and manufacturing method of panel switch

ABSTRACT

A manufacturing method of a movable contact unit includes the steps of (A) manufacturing a movable contact, (B) sticking the movable contact to a base sheet made of insulating resin, and (C) applying demagnetization to the movable contact so that the residual magnetic flux density is smaller than the operation magnetic flux density of the magnetic sensor. In step A, elastic metal plate material is processed into a downwardly opening dome shape to form the movable contact. In a manufacturing method of a panel switch, the movable contact unit is overlaid on a wiring board having a pair of an outer fixed contact and a central fixed contact that correspond to the movable contact so that the lower end of the outer periphery of the movable contact is mounted on the outer fixed contact.

This application is a divisional application of application Ser. No.11/252,617, filed Oct. 19, 2005.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a movable contact unit used inoperation units of various electronic apparatuses, a manufacturingmethod of the movable contact unit, and a manufacturing method of apanel switch.

2. Background Art

Recently, various electronic apparatuses such as portable phones orpersonal digital assistants (PDAs) have been remarkably downsized andhave had many functions. As an operation unit of each of the electronicapparatuses, a panel switch formed by disposing a plurality of pressingswitches arranged in a predetermined array is used.

A conventional movable contact unit used for forming such a panel switchand an electronic apparatus mounted with the panel switch using themovable contact unit are described with reference to FIG. 4 to FIG. 6.

FIG. 4 is a sectional view of the conventional movable contact unit, andFIG. 5 is an exploded perspective view thereof. Movable contact 1 madeof an elastic thin metal sheet has a dome shape having a downwardopening. Base sheet 2 is made of an insulating resin film, and hasadhesive layer 2A on its lower surface. A plurality of movable contacts1 are disposed in a predetermined array on the lower surface of basesheet 2, and the upper surface of each movable contact 1 is stuck andheld by adhesive layer 2A. Thus, movable contact unit 3 capable offorming a plurality of pressing switches is formed.

FIG. 6 is a sectional view of an essential part of an electronicapparatus mounted with the panel switch formed using the conventionalmovable contact unit. A plurality of pairs each of which includescentral fixed contact 5A and outer fixed contact 5B that correspond torespective movable contact 1 are disposed on the upper surface of planarwiring board 4 at positions corresponding to respective movable contacts1. An electrode for connection to another circuit is led from each fixedcontact, although they are not illustrated.

The lower end of the outer periphery of each movable contact 1 ismounted on each corresponding outer fixed contact 5B. The lower surfaceof the top of the dome shape faces each corresponding central fixedcontact 5A. Movable contact unit 3 is overlaid on wiring board 4 withreference to small holes 4A for positioning that are disposed at endsand small holes 2B of base sheet 2. Movable contact unit 3 is stuck ontowiring board 4 through exposed adhesive layer 2A of base sheet 2. Thus,panel switch 7 having a plurality of arranged press switches is formed.

Panel switch 7 is positioned in exterior case 8 of an electronicapparatus. Each operation button 9 is disposed at a positioncorresponding to each movable contact 1 of panel switch 7. Operationbutton 9 vertically movably projects from a button hole in exterior case8 and is an operation portion that can be pressed from the outside.

An operation of such an operation unit of the electronic apparatus isdescribed briefly. Firstly, operation button 9 is pressed down to pressthe upper surface of the top of movable contact 1 with operation button9. Then, movable contact 1 is elastically inverted while providing clickfeeling. When the lower surface of the top makes contact with centralfixed contact 5A, central fixed contact 6A is electrically connected toouter fixed contact 5B via movable contact 1. The press switch is thusturned on.

When the pressing force to operation button 9 is released, the lowersurface of the top is separated from central fixed contact 5A by theelastic restoring force of movable contact 1, and operation button 9 ispressed back. The press switch is thus returned to the OFF state shownin FIG. 6. Such a panel switch is disclosed in Japanese PatentUnexamined Publication No. 2003-077368, for example.

As the material of movable contact 1, a thin stainless-steel sheet isused often. However, such a material can be magnetized due to itshandling or the like. This magnetization affects the operation of amagnetic sensor that is mounted on a portable phone or the like and usedfor determination of folded (closed) state or unfolded (opened) state ofthe portable phone or azimuth identification. Therefore, whenintegration density of components is increased in an apparatus,consideration to the effect by the magnetization of movable contact 1 isrequired.

SUMMARY OF THE INVENTION

A manufacturing method of a movable contact of the present inventionincludes steps of:

-   -   (A) manufacturing a movable contact;    -   (B) sticking the movable contact to a base sheet made of        insulating resin; and    -   (C) applying demagnetization to the movable contact.        In step A, elastic metal plate material is processed into a        downwardly opening dome shape to form the movable contact. In        step C, the demagnetization is performed so that the residual        magnetic flux density of the movable contact is smaller than the        operation magnetic flux density of a magnetic sensor that is        disposed near it. In the movable contact unit manufactured in        such a manner, the demagnetization is performed until the        residual magnetic flux density of the movable contact is smaller        than the operation magnetic flux density of the magnetic sensor        that is disposed near it, so that click operation feeling is        obtained without producing an adverse effect of magnetism on the        electronic apparatus. In the manufacturing method of a panel        switch of the present invention, the movable contact unit is        overlaid on a wiring board having a pair of an outer fixed        contact and a central fixed contact that correspond to the        movable contact so that the lower end of the outer periphery of        the movable contact is mounted on the outer fixed contact. The        movable contact included in the panel switch manufactured in        such a manner is demagnetized. When the panel switch is mounted        to an apparatus, an effect to a magnetic sensor or the like        disposed for the other function have to be little considered.        Therefore, the panel switch and the magnetic sensor can be        disposed closely to each other, and downsizing and thinning of        the apparatus can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a sectional view of a movable contact unit in accordance withan exemplary embodiment of the present invention.

FIG. 2 is a sectional view of an essential part of an electronicapparatus having a panel switch using the movable contact unit of FIG.1.

FIG. 3 is an external perspective view of a folding type portable phoneas the electronic apparatus of FIG. 2.

FIG. 4 is a sectional view of a conventional movable contact unit.

FIG. 5 is an exploded perspective view of the movable contact unit ofFIG. 4.

FIG. 6 is a sectional view of an essential part of an electronicapparatus having a panel switch using the movable contact unit of FIG.4.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 is a sectional view of a movable contact unit in accordance withan exemplary embodiment of the present invention. FIG. 2 is a sectionalview of an essential part of an electronic apparatus having a panelswitch using the movable contact unit of FIG. 1.

Flexible and electrically insulating base sheet 12 is processed so thatthe outer shape is constant. Adhesive layer 12A is disposed on the wholelower surface. Each of movable contacts 11 is formed in downwardlyopening dome shape. The upper surface of each movable contact 11 isstuck and held independently by adhesive layer 12A. Movable contact unit13 is thus configured. Movable contact 11 is formed in the downwardlyopening dome shape by drawing of a thin elastic metal sheet, andundergoes demagnetization. For the material of the thin elastic metalsheet, austenitic stainless steel is preferable from the viewpoint ofthe spring characteristic. SUS 301 containing 17 wt % of chrome and 7 wt% of nickel has a good spring characteristic, so that the SUS 301 ispreferable as the material of movable contact 11. Adhesive layer 12A ismade of an acrylic adhesive, and base sheet 12 is made of polyethyleneterephthalate having a thickness of about 50 μm, for example.

Next, the manufacturing method of movable contact unit 13 is brieflydescribed. Each of movable contacts 11 is formed in the downwardlyopening dome shape by drawing a thin sheet made of austenitic stainlesssteel. At this time, a plurality of dome shapes may be formed on thethin sheet and then the thin sheet may be cut to individual pieces, orindividual material pieces may be molded in the dome shapes. Movablecontacts 11 are then demagnetized. Then, movable contacts 11 are stuckto base sheet 12 through adhesive layer 12A. Movable contact unit 13 isthus formed.

A separator (not shown) for protecting the lower surfaces of movablecontacts 11 is stuck to the lower surface of base sheet 12 havingmovable contacts 11. The separator is stuck to the lower surface of basesheet 12 through adhesive layer 12A so as to sandwich movable contacts11 with base sheet 12. When movable contact unit 13 is used, theseparator is removed.

A method may be employed where movable contact unit 13 is formed withoutapplying the demagnetization to movable contacts 11 as discussed aboveand the demagnetization is subsequently applied to whole movable contactunit 13. Only movable contacts 11 of the components of movable contactunit 13 are easily magnetized, so that only movable contacts 11 aredemagnetized also in this case. In this case, movable contact unit 13larger than movable contact 11 is handled, so that workability isimproved. On the other hand, when individual movable contacts 11 aredemagnetized, the demagnetization is certainly performed.

The demagnetizing method of movable contacts 11 is not especiallylimited. As in a general demagnetizing method disclosed in JapanesePatent Unexamined Publication No. H4-239105, for example, an alternatingmagnetic field is applied to movable contacts 11 or movable contact unit13 as the object, and the magnetic flux density of the magnetic fieldapplied to the object is gradually attenuated. The magnetizing force ofthe object is thus reduced to perform the demagnetization.

As shown in FIG. 2, panel switch 15 has movable contact unit 13 andwiring board 14. Central fixed contacts (hereinafter referred to as“contacts”) 15A and outer fixed contacts (hereinafter referred to as“contacts”) 15B are disposed on wiring board 14. Movable contact unit 13is stuck to wiring board 14 through adhesive layer 12A of base sheet 12that is exposed by removing the separator so that each of movablecontacts 11 corresponds to a pair of contacts 15A and 15B.

In other words, the lower surface of dome-like top 11A of each movablecontact 11 faces each corresponding contact 15A. The lower end of outerperiphery 11B of each movable contact 11 is mounted on eachcorresponding contact 15B. Adhesive layer 12A of the peripheral part isstuck on the upper surface of wiring board 14. Thus, each press switch16 is formed.

Panel switch 15 having a plurality of press switches 16 is positioned inexterior case 18 of the apparatus. Operation buttons 19 are verticallymovably combined correspondingly to the positions of movable contacts 11of respective press switches 16. An operation unit that can be operatedfrom the outside is thus configured.

Contacts 15A and 15B are print patterns of copper or the like disposedon wiring board 14, and operation button 19 is resin molded body.Especially, when operation buttons 19 are unitarily formed as shown inFIG. 2, it is preferable to form operation buttons 19 of silicon resinor the like having flexibility. In this case, each operation button 19is a thick part disposed at a predetermined position of a silicon resinsheet.

Next, an operation of such an operation unit of the electronic apparatusis briefly described. Operation button 19 is pressed down to press theupper surface of top 11A of movable contact 11. Then, movable contact 11is elastically inverted while providing click feeling. Therefore,contact 15A is electrically connected to contact 15B via movable contact11, and press switch 16 is turned on.

When the pressing force to operation button 19 is released, movablecontact 11 returns into the original dome shape due to the own elasticrestoring force. Movable contact 11 presses back operation button 19,and the lower surface of top 11A is separated from contact 15A. Pressswitch 16 thus returns to the OFF state shown in FIG. 2.

Panel switch 15 is mounted as numeric keypad unit 22 or the like such asfolding-type portable phone 21, as shown in the perspective view of FIG.3, for example. In this case, movable contact 11 has diameter of 4 to 5mm, and dome height is about 0.2 to 0.3 mm. In this application, movablecontact 11 is required to endure 500,000 to 3,000,000 operations, namelyto have durability reliability in turning on/off operations. Therefore,as discussed above, SUS 301 having a good spring characteristic is oftenused as material of movable contact 11.

In the present embodiment, movable contact 11 made of austeniticstainless steel that is easily magnetized by machining is demagnetized.In some cases, a method may be employed where panel switch 15 isassembled as discussed above without applying the demagnetization tomovable contacts 11 and the demagnetization is subsequently applied towhole panel switch 15.

In FIG. 3, portable phone 21 has first casing (hereinafter referred toas “casing”) 31 and second casing (hereinafter referred to as “casing”)32. Casing 31 has display unit 31A made of liquid crystal or the like.Casing 32 has numeric keypad unit 22. In other words, wiring board 14 ofFIG. 2 is stored in casing 32. Hinge 33 interconnects casing 31 andcasing 32 in a manner that they can be folded and unfolded. In thefolded state, display unit 31A and numeric keypad unit 22 are stored onthe inner surface side. Display unit 31A or the like is connected towiring board 14 stored in casing 32 through flexible wiring board 25.

When portable phone 21 is used, the user unfolds casings 31 and 32 fromthe folded state by a predetermined angle, presses numeric keypad unit22, and makes a call or transmits or receives an e-mail.

The folded state of casing 31 and casing 32 is a non-operation state, sothat the folded state is detected and portable phone 21 often undergoesa switching to power saving mode. An example of configurations fordetecting the state is a combination of magnetism generating element(hereinafter referred to as “element”) 41 and magnetic sensor(hereinafter referred to as “sensor”) 42. Element 41 is disposed at anend position opposite to the side where hinge 33 of casing 31 isdisposed. Sensor 42 is disposed in casing 32, and is disposed at aposition where sensor 42 faces element 41 in the folded state of casing31 and casing 32. In this configuration, in the folded state of casing31 and casing 32, sensor 42 detects the magnetism from element 41 andoutputs a predetermined electric signal. Portable phone 21 enters to thepower saving mode based on the electric signal. Element 41 can be madeof a general electromagnet or a permanent magnet, and sensor 42 can bemade of a hall integrated circuit (IC) or a thin magneticmagneto-resistive element, for example. The hall IC is disclosed inJapanese Patent Unexamined Publication No. 2002-261897, and the thinmagnetic magneto-resistive element is disclosed in Japanese PatentUnexamined Publication No. 2002-204010, for example. For downsizing theapparatus, the hall IC is more preferable.

Numeric keypad unit 22 is often used on the substantially whole uppersurface of casing 32, and the layout region of numeric keypad unit 22can be close to the layout place of sensor 42. Movable contact 11forming each press switch of numeric keypad unit 22 is demagnetized, sothat the causes of detection errors or the like of sensor 42 aredecreased. Undesired magnetism from movable contact 11 disposed closelyto sensor 42 is eliminated, so that sensitivity of sensor 42 can beincreased. The residual magnetic flux density of movable contact 11 issmaller than the operation magnetic flux density (sensitivity) of sensor42, and preferably is smaller than a substantially half the operationmagnetic flux density by demagnetization. When a hall IC having about 6mT of operation magnetic flux density (sensitivity) is employed, forexample, it is preferable to demagnetize movable contacts 11 so that thesum of the residual magnetic flux densities of a plurality of movablecontacts 11 disposed closely to the hall IC is 5 mT or lower, morepreferably 3 mT or lower.

In the present embodiment, each movable contact 11 of movable contactunit 13 forming a component of the operation unit is demagnetized.Therefore, a thin and light operation unit capable of providing clickfeeling in an operation can be configured, and an effect on magneticsensor 42 or the like disposed for the other function have to be littleconsidered. Movable contact 11 and sensor 42 can be therefore disposedclosely to each other, so that the apparatus can be thinned anddownsized.

In an electronic apparatus having a movable contact unit of the presentinvention, a panel switch using it, or a panel switch manufactured by amanufacturing method of the present invention, the effect of magnetismfrom the movable contact unit to the electronic apparatus is reduced.The manufacturing method of the movable contact unit is useful informing various electronic apparatuses.

1. A movable contact unit to be disposed closely to a magnetic sensor, the movable contact unit comprising: a base sheet made of insulating resin; and a movable contact made of elastic metal plate material, having a downward opening dome shape, and the movable contact being stuck to the base sheet, wherein residual magnetic flux density of the movable contact is smaller than operation magnetic flux density of the magnetic sensor.
 2. The movable contact unit according to claim 1, wherein the elastic metal plate material is austenitic stainless steel.
 3. The movable contact unit according to claim 2, wherein the austenitic stainless steel contains 17 wt % of chrome and 7 wt % of nickel. 